CAVITY ENHANCED OPTICAL MICROSCOPY

Organization Name

Ludwig-Maximilians-Universitaet Munich

Inventor(s)

Thomas Huemmer of Augsburg (DE)

CAVITY ENHANCED OPTICAL MICROSCOPY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240044788 titled 'CAVITY ENHANCED OPTICAL MICROSCOPY

Simplified Explanation

The abstract describes a method for cavity enhanced microscopy, where a sample is placed on a sample carrier within an optical cavity formed by two opposing mirrors. The method involves storing a description that defines the lateral motion of the sample and the variation of the cavity length during a specific time interval. An actuator system is then triggered to move the sample carrier and/or one of the mirrors to achieve the desired lateral motion and cavity length variation. Light is introduced into the cavity, and the transmitted, reflected, scattered, and emitted portions are detected to generate a sensor dataset.

• The method involves arranging a sample on a sample carrier within an optical cavity formed by two mirrors.
• A description is stored to define the lateral motion of the sample and the variation of the cavity length during a specific time interval.
• An actuator system is triggered to move the sample carrier and/or one of the mirrors to achieve the desired lateral motion and cavity length variation.
• Light is introduced into the cavity, and the transmitted, reflected, scattered, and emitted portions are detected to generate a sensor dataset.

Potential Applications:

• Cavity enhanced microscopy can be used in various fields such as biology, medicine, materials science, and nanotechnology.
• It can be applied for high-resolution imaging of biological samples, allowing for detailed analysis of cellular structures and processes.
• The method can be used for studying the properties and behavior of nanoscale materials, enabling advancements in nanotechnology research.
• Cavity enhanced microscopy can aid in the development of new diagnostic tools and techniques in the field of medicine.

Problems Solved:

• The method allows for improved imaging resolution by utilizing the optical cavity to enhance the interaction between light and the sample.
• It enables precise control of the lateral motion of the sample and the cavity length variation, providing more accurate and controlled measurements.
• Cavity enhanced microscopy overcomes limitations of conventional microscopy techniques, allowing for the study of samples with higher precision and sensitivity.

Benefits:

• The method offers enhanced imaging capabilities, enabling the visualization of fine details and structures that may not be visible with traditional microscopy techniques.
• It provides a more controlled and precise experimental setup, allowing for accurate measurements and analysis.
• Cavity enhanced microscopy can lead to advancements in various scientific and technological fields by providing a powerful tool for studying and understanding microscopic phenomena.

Original Abstract Submitted

according to a method for cavity enhanced microscopy, a sample is arranged on a sample carrier of an optical cavity, which is formed by a pair of opposing mirrors. a description defining a lateral motion of the sample during a predefined time interval and a variation of the cavity length during the time interval in a temporally synchronized manner is stored and an actuator system is triggered to move the sample carrier and/or at least one mirror of the pair of mirrors to effect the lateral motion of the sample with respect to the cavity and the variation of the cavity length according to the description. light is introduced into the cavity and transmitted portions and/or reflected portions and/or scattered portions and/or emitted portions are detected to generate a sensor dataset.